JP2013010915A - Heat absorbing material and product of the same - Google Patents

Heat absorbing material and product of the same Download PDF

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JP2013010915A
JP2013010915A JP2011157150A JP2011157150A JP2013010915A JP 2013010915 A JP2013010915 A JP 2013010915A JP 2011157150 A JP2011157150 A JP 2011157150A JP 2011157150 A JP2011157150 A JP 2011157150A JP 2013010915 A JP2013010915 A JP 2013010915A
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heat
absorbing material
heat absorbing
resin
storage battery
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Masaru Hiyamizu
勝 冷水
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

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Abstract

PROBLEM TO BE SOLVED: To provide a heat absorbing material effective as a thermal measure against a temperature rise caused by heat-generation of an electronic component of electronic equipment, and as a measure against the shortening of the life of a storage battery or the like, caused by the deterioration in the storage battery due to the temperature rise of the case (using a metal or resin material) of the battery by solar heat in the summer season or due to the temperature reduction of cold super cooling in the winter season.SOLUTION: The heat absorbing material is obtained by molding, together with a resin, a composite heat storage material obtained by injecting a heat storage material into capsules having micropores. The composite heat storage material obtained by injecting a heat storage material into the capsules having micropores composed of powdery silica, activated carbon or a wood powder is molded into a target shape by using a resin. The heat storage material is a paraffin type, a nitric acid type, an acetic acid type, a thiosulfate type or the like.

Description

発明の詳細な説明Detailed Description of the Invention

本発明は、熱吸収性に優れた成形物に関する。さらに詳しくは、熱吸収材に含まれた蓄熱材により周囲温度の温熱・冷熱を吸収して、周囲温度の温熱より低い温度になり、又、周囲温度の冷熱より高くなることを特徴とする熱吸収材を成形加工してなる熱吸収材に関する。The present invention relates to a molded article excellent in heat absorption. More specifically, the heat storage material included in the heat absorbing material absorbs the temperature / cold heat of the ambient temperature to become a temperature lower than the temperature of the ambient temperature, or higher than the temperature of the ambient temperature. The present invention relates to a heat absorbing material obtained by molding an absorbing material.

従来の電子基板に電子部品を取付けて電子回路を構成して、電子機器として使用した場合、電子部品の発熱により電子機器の使用に悪影響を与える場合がある、発熱による電子機器を守るために、放熱シート・アルミ材・銅材などの放熱材を使用して電子機器を使用しているが、電子部品を組込んだ電子基板をケースに入れて使用する為、発生した熱をケース内にこもる関係で、電子機器の発熱処理がテーマとして、問題が生じる欠点がある。
蓄電池を自動車に取付けて,夏季の太陽熱が蓄電池に当たり、65度〜80度以上の温度になる蓄電池内の温度上昇のためで蓄電池の性能に問題が生じる欠点がある。
又、寒冷地区の低温にて使用する蓄電池は、寒冷による低温度の為、蓄電池の性能に問題が生じる欠点がある。
蓄電池2個〜10個・10個〜15個・15〜20個等を1個のケース内に収納して使用した場合、ケース内蓄電地の温度上昇にて蓄電池の性能に問題が生じる欠点がある。
建築建物ビル・アパート・民家等の外面のコセメント製に夏季太陽光の光を受けて、加熱によって、屋上・壁面・屋根が加熱されて65度〜80度程度になる場合が生じ、その熱で市街地区では、気温が上昇して、ビル・アパート・民家の室内の温度が上昇し、冷房用の電機エネルギーやガスエネルギー等の損失が生じる問題があり。冬季は夏季と反対で屋上・壁面・屋根が冷やされて、室内の温度が下がり、暖房の為のエネルギーが必要とする問題が生じる欠点がある。
屋外の樹脂製の敷物・樹脂製の人口芝生が夏季の太陽熱を受けて、65度〜70度程度になり、人間が手や素足で接触し場合、暑くて接触出来ない問題が生じる欠点がある。In order to protect electronic devices due to heat generation, when electronic components are mounted on a conventional electronic board and configured as an electronic circuit, the electronic devices may adversely affect the use of electronic devices due to heat generation. Electronic devices are used using heat dissipation materials such as heat dissipation sheets, aluminum materials, copper materials, etc. However, since an electronic board incorporating electronic parts is used in the case, the generated heat is stored in the case. In relation to this, there is a drawback that a problem arises as a theme of heat generation processing of electronic equipment.
There is a drawback that a storage battery is attached to an automobile, and the solar heat in the summer hits the storage battery, causing a problem in the performance of the storage battery due to the temperature rise in the storage battery at a temperature of 65 degrees to 80 degrees or more.
In addition, a storage battery used at a low temperature in a cold district has a disadvantage that a problem occurs in the performance of the storage battery because of a low temperature due to the cold.
When 2 to 10 storage batteries, 10 to 15 or 15 to 20 storage batteries are housed in one case and used, there is a drawback that a problem occurs in the performance of the storage battery due to the temperature rise of the storage battery in the case. is there.
Buildings / apartments / private houses, etc., which are made of coconut on the outside, receive summer sunlight, and the roof, walls, and roof are heated to about 65 to 80 degrees due to heating. In urban areas, there is a problem that the temperature rises and the temperature in buildings, apartments, and private houses rises, causing loss of electrical energy and gas energy for cooling. In winter, the roof, walls, and roof are cooled, contrary to the summer, and the temperature in the room decreases, causing the problem of requiring energy for heating.
Outdoor resin rugs / resin artificial turf are affected by solar heat in the summer and reach 65 to 70 degrees. When humans come in contact with their hands or bare feet, there is a disadvantage that the problem is too hot to contact. .

発明が解決しようとする課題Problems to be solved by the invention

電子部品を取付ける電子基板に、電子部品の高集積化や発熱素子の高発熱が進んでいるため電子機器内の温度上昇による熱対策は大きな課題とされて、問題となっている。
本発明は、従来の課題を解決するため、市販されている電子基板の変わりに、熱吸収材基板を提供することを目的とする。
従来放熱材(放熱シート・アルミ材使用)を用いて、電子機器の電子部品の発熱による温度上昇の熱対策は大きな課題とされて、問題となっている。
上記課題を解決するため、従来の放熱材の変わりに、熱吸収材を提供することを目的とする。
蓄電池ケース(金属・樹脂材使用)の太陽熱による夏季の温度上昇や冬季の冷熱過熱の温度降下による蓄電池内の劣化による蓄電池寿命の短縮が課題とされて、問題となっている。
上記課題を解決するために、従来の蓄電池ケースの変わりに、熱吸収材ケースを提供することを目的とする。
何個か組込んだ蓄電池ケース内に蓄電池による温度上昇が発生し、その発熱で、蓄電池内の劣化による蓄電池寿命の短縮が課題とされて、問題となっている。
上記課題を解決するため、蓄電池ケース内に熱吸収材を入れて発熱を吸収する、熱吸収材を提供するを目的とする。
建築建物の屋上・壁面・民家の屋根・壁面等に使用している材料はセメント材やタイルが主で、夏季の太陽熱よる温熱加熱による温度上昇、冬季の太陽熱の冷熱過熱による温度落下等にて、市街地の屋上。壁面の温度上昇による市街地区の温暖化が生じ、室内の温度が加熱や冷やされてその為、室内の温度調節に電気やガス等のエネルギーを使用して地球の温暖化を生じて課題とされ、問題となっている。
上記課題を解決するため、熱吸収材の建築建物の屋上・壁面・民家の屋根・壁面に設けて省エネルギー化を目指し、地球温暖化を少なくすることを目的とする。
夏季屋外の樹脂製のタイルや人口芝生が太陽光に加熱により温度上昇して人間の手や素足で接触し場合、焼けどしそうな常態まで温度上昇を課題とされて、問題となっている。
上記課題を解決するため、熱吸収材の樹脂製シートや人口芝生で課題の解決を目的とする。Since the integration of electronic components and the high heat generation of the heating elements are progressing on the electronic substrate on which the electronic components are mounted, countermeasures against heat due to temperature rise in the electronic device are regarded as a major issue and are problematic.
In order to solve the conventional problems, an object of the present invention is to provide a heat absorbing material substrate instead of a commercially available electronic substrate.
Conventionally, using heat radiating materials (using heat radiating sheets / aluminum materials), heat countermeasures against temperature rise due to heat generation of electronic components of electronic devices are regarded as a major issue and have become a problem.
In order to solve the above problems, an object of the present invention is to provide a heat absorbing material instead of a conventional heat radiating material.
Shortening the life of the storage battery due to deterioration in the storage battery due to temperature rise in the summer due to solar heat of the storage battery case (using metal / resin material) and temperature drop due to cold overheating in the winter has become a problem.
In order to solve the above problems, an object is to provide a heat absorbing material case instead of a conventional storage battery case.
A rise in temperature due to the storage battery occurs in some of the built-in storage battery cases, and due to the heat generation, shortening the life of the storage battery due to deterioration in the storage battery is a problem.
In order to solve the above problems, an object of the present invention is to provide a heat absorbing material that absorbs heat generation by putting a heat absorbing material in a storage battery case.
Cement materials and tiles are mainly used for roofs, walls, roofs and walls of private houses in buildings, etc., due to temperature rise due to thermal heating by solar heat in summer, temperature drop due to overheating of solar heat in winter, etc. The rooftop of the city area. Warming of the city area due to the rise in the temperature of the wall surface causes the indoor temperature to be heated or cooled, which causes the global warming by using energy such as electricity and gas to adjust the indoor temperature. , Has become a problem.
In order to solve the above-mentioned problems, the object is to reduce the global warming by aiming at energy saving by providing the heat absorbing material on the roof, wall surface, roof of the private house, wall surface.
In the case of resin tiles and artificial lawns outdoors in the summer when the temperature rises by heating to sunlight and comes in contact with human hands and bare feet, raising the temperature to a normal state that seems to burn is a problem.
In order to solve the above-mentioned problems, the object is to solve the problems with resin sheets and artificial lawns of heat absorbing materials.

課題を解決するための手段Means for solving the problem

本発明の請求項1の熱吸収材は、粉末活性炭・粉末シリカ・粉末木粉などの微細孔を有する材料に蓄熱材を注入した複合蓄熱材料を樹脂にて目的に適した形状に成形加工して、熱吸収をすることを特徴とする熱吸収材。
請求項2の熱吸収材基板は請求項1の熱吸収材に導電材を片面又は両面に取付け、電子部品を取付け、目的に適した形状に成形加工してなる熱吸収材基板を特徴とする。
請求項3は従来の電子機器に使用している、電子機器ケース・電子基板・放熱材は、電子機器内より発生する熱を放熱する方法を使用している、変わりに、熱吸収する、熱吸収材を使用して、目的とする形状に成形加工して成ることを特徴とする。
請求項4は従来の蓄電池ケースは金属・樹脂を使用している関係で、例えば、接氏60程度の太陽光の直射日光が蓄電池ケースに当たり、蓄電池内の温度上昇になる。蓄電池ケースに熱吸収材を使用して、蓄電池内の温度上昇を少なくすことを、目的とする形状に成形加工してなることを特徴とする。
請求項5は熱吸収材を蓄電池内に設けて、蓄電池内の温度上昇を少なくすることを、目的とする形状に成形加工してなることを特徴とする。
請求項6は建築建物や民家の屋根、壁などに使用している、1例では、コンクリート材は太陽光熱に加熱されて摂氏65至72度程度になり、その熱の関係で市街地区は温暖化となる、それに変わる、屋根材・壁材の熱吸収材を使用して、温暖化を少しでも少なくすることを、目的とする形状に成形加工して成ることを特徴とする。
請求項7は屋外の人口芝生や屋外の樹脂シートは、1例では、太陽光により摂氏65度程度に加熱している、その関係で人口芝生や樹脂シートに人体の手・足が熱くて接触出来ない。手・足が人口芝生・樹脂シートに接触出来る熱吸収材を用いて、目的とする形状に成形加工して成ることを特徴とする。The heat absorbing material according to claim 1 of the present invention is formed by molding a composite heat storage material in which a heat storage material is injected into a material having fine pores such as powdered activated carbon, powdered silica, and powdered wood powder into a shape suitable for the purpose with a resin. A heat absorbing material characterized by absorbing heat.
The heat-absorbing material substrate according to claim 2 is characterized in that the heat-absorbing material substrate is formed by attaching a conductive material to one or both sides of the heat-absorbing material according to claim 1, attaching an electronic component, and forming into a shape suitable for the purpose. .
Claim 3 uses a method for radiating the heat generated from the inside of the electronic device case, the electronic substrate, and the heat radiating material used in the conventional electronic device. Instead, it absorbs heat, heat It is characterized by being formed into a desired shape using an absorbent material.
According to the fourth aspect of the present invention, since the conventional storage battery case uses metal / resin, for example, direct sunlight of about 60 degrees Celsius hits the storage battery case, and the temperature in the storage battery rises. A heat absorbing material is used for the storage battery case, and the temperature rise in the storage battery is reduced to a desired shape.
According to a fifth aspect of the present invention, a heat absorbing material is provided in the storage battery, and the heat absorption material is molded into a target shape to reduce the temperature rise in the storage battery.
Claim 6 is used for roofs and walls of architectural buildings and private houses. In one example, the concrete material is heated by solar heat to about 65 to 72 degrees Celsius, and the urban area is warm due to the heat. It is characterized by using a heat absorbing material for roofing and wall materials, which changes to that, and by molding the target shape to reduce warming as much as possible.
Claim 7 is that the artificial artificial lawn and the outdoor resin sheet are heated to about 65 degrees Celsius by sunlight in one example. I can't. It is characterized by being formed and processed into the desired shape using a heat absorbing material that allows the hands and feet to contact the artificial lawn and resin sheet.

以下、発明の実施形態について説明する。Embodiments of the invention will be described below.

本発明の粉末のシリカ、活性炭、木粉の微細孔カプセルに蓄熱材を注入した複合蓄熱材を樹脂にて目的とする形状に成形加工してなるように構成されている。The composite heat storage material in which the heat storage material is injected into the fine pore capsules of the silica, activated carbon, and wood powder of the present invention is formed into a desired shape with a resin.

蓄熱材は、パラフイ系、硝酸塩系、酢酸系、チオ硫酸塩系などあり、一種又二種以上混合物が好適にもちいられる。蓄熱材は、上記の微細カプセル100重量部に対して、10重量部至100重量部を注入する。Examples of the heat storage material include paraffin-based, nitrate-based, acetic acid-based, and thiosulfate-based materials, and one or a mixture of two or more is preferably used. The heat storage material is injected from 10 parts by weight to 100 parts by weight with respect to 100 parts by weight of the fine capsule.

微細孔カプセルに蓄熱材を注入するには、回転方式、高速回転方式、真空方式、などあります。There are several methods for injecting heat storage material into the micro-hole capsule, such as rotation method, high-speed rotation method, and vacuum method.

用いる樹脂は、アクリロ二トリル・アクリルゴム・スチレン重合樹脂、「此の項のカッコウ内英字は略称を示す」(AAS)、アクリロ二トリル・塩素化ポリエチレン・スチレン共重合体(ACS)、アクリロニトリ・ブタジエン・スチレン共重合体(ABS)、アクリロニトリル・エチレンプロピレンゴム・スチレン共重合体(AES)、アクリロニトリルスチレン共重合樹脂(AS),ジシクロペンタジエン(DCPD)、エポキシ樹脂(EP)、エチレン酢酸微ビ二ルコポリマー(EVA),繊維強化プラスチック(FRP)、ガラス織維強化プラスチック(GRP)、織維強化プラスチック(FRTP)、ガラス織維強化プラスチック(GRTP)液晶ポリマー(LCP)、メラミンホルムアルデヒド(メラミン樹脂)(MF)、天然ゴム(NR)、ポリアミド(ナイロン)(PA)、ポリアミドイミド(PAI)、ポリアリレート(PAR)、ポリプチレナフサレート(PBN))、ポリカーボネト(PC)、ポリエチレン(PE)、高密度ポリエチレン(PE−HDPE)、低密度ポリエチレン(PE−LDPE)フェノール樹脂(PF)、ポリイミド(PI)ポリメチルベンテンポリマー(PMP)、ポリプロピレン(PP)、ポリスチレン(PS)、ポリウレタン(PU)ポリ塩化ビ二−ル(PVC)、シリコーン(SI)、熱可塑性プリウレタン(TPU)、ユリア樹脂(UF)、不飽和プリエステル等の樹脂を使用する。上記樹脂100重量部に対して蓄熱材を注入した微細カプセルを10重量部至60重量部お目的とする形状に成形加工して成る熱吸収材である。Resin used is acrylonitrile / acrylic rubber / styrene polymer resin, “English characters in parentheses in this section indicate abbreviations” (AAS), acrylonitrile / chlorinated polyethylene / styrene copolymer (ACS), acrylonitrile / Butadiene / styrene copolymer (ABS), acrylonitrile / ethylene propylene rubber / styrene copolymer (AES), acrylonitrile / styrene copolymer resin (AS), dicyclopentadiene (DCPD), epoxy resin (EP), ethylene acetate fine vinyl Diethyl copolymer (EVA), fiber reinforced plastic (FRP), glass woven reinforced plastic (GRP), woven reinforced plastic (FRTP), glass woven reinforced plastic (GRTP) liquid crystal polymer (LCP), melamine formaldehyde (melamine resin) ) (MF), heaven Rubber (NR), Polyamide (Nylon) (PA), Polyamideimide (PAI), Polyarylate (PAR), Polypropylene Naphthalate (PBN)), Polycarbonate (PC), Polyethylene (PE), High Density Polyethylene (PE -HDPE), low density polyethylene (PE-LDPE) phenolic resin (PF), polyimide (PI) polymethylbenten polymer (PMP), polypropylene (PP), polystyrene (PS), polyurethane (PU) polyvinyl chloride Resin such as (PVC), silicone (SI), thermoplastic pre-urethane (TPU), urea resin (UF), unsaturated pre-ester is used. The heat-absorbing material is obtained by molding and processing a fine capsule in which a heat storage material is injected into 100 parts by weight of the resin into a target shape of 10 to 60 parts by weight.

成形加工は、圧縮成形、トランスファ成形、積層成形、射出成形、押出成形、吹込成形、カレンダー成形、注型、ペースト技術、粉末成形、回転成形、FRP成形 低圧成形法、高圧成形法、反応成形、熱成形、溶接、などを用いて樹脂100重量部に対して蓄熱材を微細カプセルに注入した、材料10重量部至60重量部を上記の成形加工方法を用いて、目的とする形状に成形加工して成る熱吸収材である。Molding process includes compression molding, transfer molding, lamination molding, injection molding, extrusion molding, blow molding, calendar molding, casting, powder molding, rotational molding, FRP molding, low pressure molding, high pressure molding, reaction molding, A heat storage material is injected into a fine capsule with respect to 100 parts by weight of resin using thermoforming, welding, etc., and 10 parts by weight to 60 parts by weight of the material is formed into a desired shape using the above-described forming method. This is a heat absorbing material.

本発明は難燃性付与のため水酸化アルミ二ウム、水酸化マグネシウムなどを添加してもよく一種又は二種以上の混合物が好適に用いられる。In the present invention, aluminum hydroxide, magnesium hydroxide or the like may be added for imparting flame retardancy, and one or a mixture of two or more are preferably used.

夏季の温度上昇により自動車内のハンドル、インスルメントパネルが摂氏80度程度に加熱されて、人体の手で接触出来ない状態をなくすために、目的とする形状に熱吸収材を成形加工する。In order to eliminate the state where the handle and the instrument panel in the automobile are heated to about 80 degrees Celsius due to the temperature rise in summer and cannot be touched by the hand of the human body, the heat absorbing material is molded into the target shape.

夏季、冬季の温度変化に冷房、暖房を用いて自動車内の温度を調節するために、エネルギーを使用して調節している。自動車内に熱吸収材を設けて、自動車外の温熱、冷熱を自動車内で熱吸収材
が吸収して、省エネルギーを目指す。目的とする形状に熱吸収材を成形加工する。Energy is used to adjust the temperature inside the car using air conditioning and heating for temperature changes in summer and winter. A heat-absorbing material is installed inside the car, and the heat-absorbing material absorbs the heat and cold outside the car inside the car, aiming to save energy. The heat absorbing material is formed into a desired shape.

以下に本発明の実施例について詳細に説明する。Examples of the present invention will be described in detail below.

微細孔カプセルのシリカ100重量部にパラフィン60重量部を高速回転機にてパラフィンを活性炭に注入し材料(A)、材料(A)をエポキシ樹脂100重量部に材料(A)50重量部を攪拌し、圧宿成形機にて平板に成形加工して熱吸収材を作成しました。60 parts by weight of paraffin into 100 parts by weight of silica in a microporous capsule, paraffin is injected into activated carbon with a high-speed rotating machine, and material (A) is mixed with 100 parts by weight of epoxy resin and material (A) is stirred with 50 parts by weight of material (A). Then, the heat absorbing material was made by molding into a flat plate with an indentation molding machine.

実施例1の成形加工した平板材料に、導電体の銅材を公知の方法で片面、又は両面に接着して熱吸収材基板を作成しました。A heat-absorbing material substrate was prepared by bonding the copper material of the conductor to one or both sides of the flat plate material of Example 1 using a known method.

従来の電子機器に電子部品を設けた基板の片面に熱吸収材を公知の方法で取付け、発熱する熱を吸収するように作成しました。A heat-absorbing material was attached to one side of a board on which electronic components were installed in a conventional electronic device using a known method, and created to absorb the heat generated.

電子機器ケース内の電子部品を組込んだ基盤裏面又は、周辺に熱吸収材を公知の方法で取付けて、発生する熱を吸収するように作成しました。A heat-absorbing material is attached to the backside of the base or the surrounding area where the electronic parts are installed in the electronic device case using a well-known method so that the generated heat is absorbed.

微細孔カプセルの活性炭100重量部にパラフィン60重両部を高速回転機にてパラフィンをシリカに注入した材料(B)、材料(B)を粉末フエノル樹脂100重量部に対して材料(B)を50重量部と攪拌し、射出成形機にて成形加工して、蓄電池ケースを作成しました。60 parts of paraffin is injected into 100 parts by weight of activated carbon in a microporous capsule, 60 parts of paraffin is injected into the silica with a high-speed rotating machine (B), and material (B) is added to 100 parts by weight of the powdered phenolic resin (B). A battery case was created by stirring 50 parts by weight and molding with an injection molding machine.

上記実施例5の蓄電池ケース内に熱吸収材を組込んで蓄電池内の発熱を吸収するよう作成しました。A heat absorbing material was incorporated into the storage battery case of Example 5 above to create heat absorption in the storage battery.

微細孔粉末木粉100重量部にパラフィン100重量部を高速回転機にてパラフィンを微細孔粉末木粉内に注入した材料(C)、材料(C)を液体難燃剤が入った容器内に入れて難燃剤を注入して乾燥後の材料(D)、材料(D)を100重量部に難燃剤を有するエポキシ樹脂50重量部と攪拌して、圧宿成形加工して、目的とする形状に成形加工して建築建物の外壁材、屋根材を作成しました。100 parts by weight of fine pore powder wood powder and 100 parts by weight of paraffin with a high-speed rotating machine. Material (C) and material (C) in which paraffin is injected into the fine pore powder wood powder are placed in a container containing a liquid flame retardant. After injecting the flame retardant, the material (D) after drying and the material (D) are stirred with 50 parts by weight of an epoxy resin having a flame retardant in 100 parts by weight, and then subjected to pressure-compression molding to obtain a desired shape. Formed and created exterior walls and roofing materials for architectural buildings.

微細孔粉末シリカカプセル100重量部にパラフィン50重量部お高速回転機にてパラフィンを注入した材料(E)、材料(E)を100重量部の粉末エチレン酢酸ビ二ルコポリマー(EVA)と攪拌して、射出成形機で、目的とする形状に成形加工してなる人口芝生を作成しました。50 parts by weight of paraffin in 100 parts by weight of fine pore powder silica capsules and paraffin-injected material (E) and material (E) were stirred with 100 parts by weight of powdered ethylene vinyl acetate copolymer (EVA). In addition, we created artificial lawns that were molded into the desired shape using an injection molding machine.

周囲温度 熱吸収材温度
2,6 11,3
3,7 14,4
5,5 15,6
6,3 18,3
8,8 19,2Ambient temperature Heat absorber temperature
2,6 11,3
3,7 14,4
5,5 15,6
6,3 18,3
8,8 19,2

周囲温度 熱吸収材温度 市販の外壁材温度(セメント製)
40 33 46
42 36 52,1
44 37,7 57,4
50 41 63
55 43 65
60 47 72,6Ambient temperature Heat absorbing material temperature Commercial outer wall material temperature (made of cement)
40 33 46
42 36 52,1
44 37, 7 57, 4
50 41 63
55 43 65
60 47 72,6

発明の効果Effect of the invention

以上説明したとおり本発明によれば、高い熱吸収材を有する材料が得られる、この材料は、電子機器の温度上昇の調節、建築建物の外壁・屋根材、等に使用出来て、市街化の温暖化を防止が出来、省エネルギーに役立ち、屋外、ベランダ等の樹脂シート、人口芝生などの夏季温度上昇を防止し、快適な生活か可能となる。其の効果は社会的に大である。As described above, according to the present invention, a material having a high heat-absorbing material can be obtained. This material can be used for adjustment of temperature rise of electronic devices, outer walls and roofing materials of building buildings, etc. It can prevent global warming, help save energy, prevent the rise of summer temperatures such as outdoors, resin sheets on verandas, artificial lawns, etc., enabling a comfortable life. The effect is great socially.

Claims (7)

微細孔を有するカプセルに蓄熱材を注入した複合蓄熱材を樹脂と共に成形加工して成ることを特徴とする熱吸収材。  A heat-absorbing material obtained by molding a composite heat storage material in which a heat storage material is injected into a capsule having fine pores together with a resin. 熱吸収材を平板状の成形物片面又は、両面に導電性の材料を設けてなる電子基板に組込み、電子部品より放熱する熱を少なくする、請求項1項の熱吸収材から成る熱吸収材基板の成形物。2. A heat absorbing material comprising the heat absorbing material according to claim 1, wherein the heat absorbing material is incorporated in an electronic board having a conductive material provided on one side or both sides of a flat plate-shaped molded article to reduce heat radiated from the electronic component. Molded substrate. 電子機器に熱吸収材も用いた、請求項1項の熱吸収材から成る成形物2. A molded article comprising the heat absorbing material according to claim 1, wherein the electronic device also uses a heat absorbing material. 熱吸収材から成る蓄電池ケースを用いて、屋外の温度変化が蓄電池内に伝はることを少なくする、請求項1の熱吸収材から成る成形物。2. The molded article made of a heat absorbing material according to claim 1, wherein a storage battery case made of the heat absorbing material is used to reduce an outdoor temperature change from being transmitted into the storage battery. 熱吸収材を蓄電池内に組み込み、蓄電池内の温度上昇を少なくする、請求項1の熱吸収材か成る成形物。2. A molded article comprising the heat absorbing material according to claim 1, wherein the heat absorbing material is incorporated in the storage battery to reduce a temperature rise in the storage battery. 熱吸収材を建築建物の屋外壁・屋根材・屋内壁・床下・室内仕切に用いて、屋外・屋内の温度変化を室内に伝わることを少なくする。請求項1の熱吸収材から成る成形物。Use heat absorbing materials for outdoor walls, roofing materials, indoor walls, under floors, and indoor partitions in building buildings to reduce the transmission of outdoor and indoor temperature changes to the room. A molded article comprising the heat absorbing material according to claim 1. 熱吸収材を建築建物のベランダや屋外に使用している樹脂製の人口芝生や樹脂製の敷物に用いて、樹脂製の人口芝生や樹脂製の敷物の温度上昇を少なくする、請求項1の熱吸収材から成る成形物。The heat absorption material is used for a resin artificial lawn or a resin rug used on a veranda of a building or outdoors, to reduce the temperature rise of the resin artificial lawn or a resin rug. Molded product made of heat absorbing material.
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